Extraction of Precipitated Calcium Carbonate from Oyster Shell waste and Its Applications |
Ramakrishna, Chilakala
(Department of R&D Team, Hanil Cement Corporation)
Thenepalli, Thriveni (Department of R&D Team, Hanil Cement Corporation) Nam, Seong Young (Department of R&D Team, Hanil Cement Corporation) Kim, Chunsik (Department of R&D Team, Hanil Cement Corporation) Ahn, Ji Whan (Center for Carbon Mineralization, Korea Institute of Geoscience and Mineral Resources(KIGAM)) |
1 | Food and Agricultural Organization (FAO). "Global aquaculture production 1950-2009," Rome: Italy, 2011. |
2 | Food and Agricultural Organization (FAO), "Yearbook of fishery and aquaculture statistics 2008," Rome: Italy, 2010. |
3 | Bureau of Fisheries, Ministry of Agriculture. China Fisheries Yearbook 2011. Beijing: China Agriculture Press, 2011. |
4 | J.H. Jung, "Reactivity of Bio-sorbent Prepared by Waste Shells of Shellfish in Acid Gas Cleaning Reaction," The Korean Jour.of Chem.Eng., 22[4] 566-68 (2005). DOI |
5 | J.H. Jung, "Reuse of waste oyster-shells as a SO2/NOx removal absorbent," Jour. of Indus.and Eng. Chem., 13[4] 512-17 (2007). |
6 | FAO, FAO yearbook, Fishery statistics, Vol. 100/2 (2005), Food and Agriculture Organization of the United Nations, Rome. 2007. |
7 | S. Asaoka, "Removal of hydrogen sulfide using crushed oyster shell from pore water to remediate organically enriched coastal marine sediments," Bioresource Tech., 100 4127-32 (2009). DOI |
8 | L. Xiang, Y. Xiang, Y. Wen and F. Wei, "Formation of CaCO3nanoparticles in the presence of terpineol," Mater. Lett., 58 959-65 (2004). DOI |
9 | Z. T. Yao, T. Chen, H. Y. Li, M. S. Xia, Y. Ye and H. Zheng, "Mechanical and thermal properties of polypropylene (PP) composites filled with modified shell waste," J. Hazard. Mater., 262 212-7 (2013). DOI |
10 | M. Suzuki, S. Sakuda and H. Nagasawa, "Identification of chitin in the prismatic layer of the shell and a chitin synthase gene from the Japanese pearl oyster, Pinctada fucata," Biosci. Biotechnol. Biochem., 71 1735-44 (2007). DOI |
11 | S. Sudo, T. Fujikawa, T. Nagakura, T. Ohkubo, K. Sakaguchi, M. Tanaka, K. Nakashima, and T. Takahashi, "Structures of mollusc shell framework proteins," Nature., 387 563-64 (1997). |
12 | Z. T. Yao, M. S. Xia, H. Y. Li, T. Chen, Y. Ye and H. Zheng, "Bivalve shell: not an abundant useless waste but a functional and versatile biomaterial," Crit. Rev. Environ. Sci. Technol., 44 2502-30 (2014). DOI |
13 | Tsuyoshi Mori, " Recycling of waste oyster shells: Production of clean and Bactericidal drinking water," The Foundation of Oyster Research Institute 31-5 Sanezawa-Nakayamaminami, Izumi, Sendai, Japan, 981 3217 (1994). |
14 | K. Mori and K. Takahashi, "Bactericidal effects on Escherichia coli of the water treated with new ceramics manufactured by a combination of burned oyster shells and natural zeolite," Mizushorigijutu (Water Purification and Liquid Waters Treatment)., 39 1-7(1998). |
15 | G.L. Yoon, "Chemical-mechanical characteristics of crushed oyster-shell," Waste Management., 23 825-34 (2003). DOI |
16 | J.H. Jung, "Reuse of waste oyster-shells as a SO2/NOx removal absorbent," Jour. of Indus.and Eng. Chem., 13[4] 512-17 (2007). |
17 | H. Y. Li, Y. Q. Tan, L. Zhang, T. Chen, Y. H. Song, Y. Ye and M. S. Xia, "Bio-filler from mussel shell: preparation and its effects on polypropylene composites properties," J. Inorg. Mater., 27 1-7 (2012). DOI |
18 | H. Y. Li, Y. Q. Tan, L. Zhang, Y. X. Zhang, Y. H. Song, Y. Ye and M. S. Xia, "Bio-filler from waste shellfish shell: preparation, characterization, and its effect on the mechanical properties on polypropylene composites," J. Hazard. Mater., 217 256-62 (2012). |
19 | P. M. A. de Melo, L. B. Silva, A. S. F. Santos, T. A. Passos, S. J. G. Lima and M. M. Ueki, "Evaluation of thermal and mechanical behavior of HDPE/mollusk shell composites prepared in single screw extruder," Proceedings of 22nd International Congress of Mechanical Engineering (COBEM 2013), 3[7] 3757-62 (2013). |
20 | ICO, International Coffee Organization. Available at: http://www.ico.org/. Accessed (05 March 2010), 2010. |
21 | A.G. Lane, "Anaerobic digestion of spent coffee grounds," Biomass., 3 247-68 (1983). DOI |
22 | E. Raetz, "Anaerobic Digestion of wastes; spent coffee grounds," Nestle' Research Centre no. 42 1990. |
23 | C.G. Blandon, V.N. Rodriguez and A.M.T. Davila, "Characterization microbiological fisino-quimica de los subproductos del beneficio del cafe en procesode compostaje. Cenicafe," Colombia., 49 169-185 (1998). |
24 | M. Mustin, "Le compost - gestion de la matière organique," Editions Francois Dubusc - Paris. 954, 1987. |
25 | R.K Kasongo and A. Verdoodt, "Coffee waste as an alternative fertilizer with soil improving properties for sandy soils in humid tropical environment," Soil Use and Management. 27 94-102 (2011). DOI |
26 | Raphael. Kurian, and K. Velmourougane, "Chemical and microbiological changes during vermicomposting of coffee pulp using exotic (Eudrilus eugeniae) and native earthworm (Perionyx ceylanesis) species." Biodegradation., 22 497-507 (2011). DOI |
27 | K. Liu and G.W. Price, "Evaluation of three composting systems for the management of spent coffee grounds," Bioresource Technology. 100[2] 7966-74 (2011) |